Service management using user experience metrics

ABSTRACT

A method, system, and computer usable program product to determine a first mood of the user, where the first mood is based on a characteristic of the user at a first time during the providing of an online service and to determine a second mood of the user, where the second mood is based on a characteristic of the user at a second time during the providing of the online service. The first mood of the user and the second mood of the user are compared to determine a delta or change in mood of the user.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates generally to improved electronic commerce,and in particular, to a computer implemented method for measuring andmanaging the experience of using an online service. More particularly,the present invention relates to a computer implemented method, system,and computer usable program code for measuring the subjective experienceof a user using an online service.

2. Description of the Related Art

The amount of trade conducted through online service events has grownextraordinarily with widespread use of the Internet. Almost all bigretailers have some online presence and a user can go online to purchaseanything from books or groceries, to expensive items like cars or realestate from the privacy of the consumer's home.

One of the problems with an online service event is that the serviceprovider's physical presence is removed from the consumer and it can bedifficult to obtain a subjective measure of a consumer's satisfactionduring the online service event. The subjective measurement is a qualityof consumer's experience of how a consumer feels about an online serviceevent they are performing or have just performed, such as a voice call,or purchasing goods or services.

Collecting subjective measures from a consumer is usually done usingsome method of a user survey after the service is completed, forexample, selecting a satisfaction value of between one (1) and five (5)following the completion of a purchase. The problem with this approachis that many consumers do not participate in surveys and if a consumerhad experienced an unacceptable service event, such as a poor responsetime while executing a transaction, often the user will just quit andnever complete the online service event or answer a survey to help theretailer avoid problems in the future. For example, by assigning moreresources to the user transaction, without understanding that the userexperience is poor, the service will not know that such changes arewarranted.

SUMMARY OF THE INVENTION

The illustrative embodiments provide a method, system, and computerusable program product with respect to optimization of servicemanagement using metrics indicative of subjective user experience. Anembodiment determines a first mood of a user, where the first mood isbased on a characteristic of the user at a first time during theproviding of an online service. The embodiment determines a second moodof the user, wherein the second mood is based on a characteristic of theuser at a second time during the providing of the online service. Thefirst mood of the user and the second mood of the user are compared todetermine a delta or change in mood of the user.

BRIEF DESCRIPTION OF THE DRAWINGS

The novel features believed characteristic of the invention are setforth in the appended claims. The invention itself; however, as well asa preferred mode of use, further objectives and advantages thereof, willbest be understood by reference to the following detailed description ofan illustrative embodiment when read in conjunction with theaccompanying drawings, wherein:

FIG. 1 depicts a pictorial representation of a network of dataprocessing systems in which the illustrative embodiments may beimplemented;

FIG. 2 depicts a block diagram of a data processing system in which theillustrative embodiments may be implemented;

FIG. 3 depicts a block diagram of an example device with respect tooptimization of service management using subjective user experiencemetrics in accordance with an illustrative embodiment;

FIG. 4 depicts example time logs with respect to service managementusing user experience metrics in accordance with an illustrativeembodiment;

FIG. 5 depicts a flowchart of an example process for optimization ofservice management using subjective user experience metrics inaccordance with an illustrative embodiment;

FIG. 6 depicts a flowchart of an example process for optimization ofservice management using subjective user experience metrics inaccordance with an illustrative embodiment;

FIG. 7 depicts a flowchart of an example process for optimization ofservice management using subjective user experience metrics inaccordance with an illustrative embodiment; and

FIG. 8 depicts a flowchart of an example process for optimization ofservice management using subjective user experience metrics inaccordance with an illustrative embodiment.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

For the purposes of this disclosure, an online service may be anyservice delivered or provided to a user using a network of any type,including but not limited to synchronous and asynchronous data services,voice services, audio-visual services, and interactive web-basedservices.

The invention recognizes the need to obtain a subjective measure of auser's satisfaction during an online service event in order to increasethe user's satisfaction and improve the online service event for thecurrent user, and other potential users. The invention furtherrecognizes that relatively few users want to fill out a survey,especially if they are dissatisfied with the online service event.

Some systems and methods attempt to measure a user's satisfaction bymeasuring the current emotional state of the user without any referenceto a previous emotional state of the user. However, those systems andmethods do not take into account the changes in emotional state of theuser, that is the difference between the emotional state of the user ata first time, and the emotional state of the user at a second time.

The illustrative embodiments used to describe the invention generallyaddress and solve the above-described problems and other problemsrelated to the optimization of service management using subjective userexperience metrics. The illustrative embodiments of the inventionprovide a method, computer usable program product, and processing systemfor the optimization of service management using subjective userexperience metrics. The invention recognizes that measuring the delta orchange in mood during or after the service can be used to get anindication that using the service improved or decreased the user's mood,regardless of the mood the user was in the first time when the mood oremotional state was evaluated. For purposes of this application, theterms emotions and moods are used interchangeably.

The illustrative embodiments are described with respect to data, datastructures, and identifiers only as examples. Such descriptions are notintended to be limiting on the invention. For example, an illustrativeembodiment described with respect to single piece of information may beimplemented using a combination of several pieces of information, in asimilar manner within the scope of the invention.

Furthermore, the illustrative embodiments may be implemented withrespect to any type of data processing system. For example, anillustrative embodiment described with respect to a single-processorstandalone data processing system may be implemented in a multiprocessorlogical partition system, or any other organization of data processingsystems, such as rack configurations in a data center, within the scopeof the invention. As another example, an embodiment of the invention maybe implemented with respect to any type of client system, server system,platform, or a combination thereof.

The illustrative embodiments are further described with respect tocertain parameters, attributes, and configurations only as examples.Such descriptions are not intended to be limiting on the invention. Forexample, an illustrative embodiment described with respect to numericattribute may be implemented using an alphanumeric attribute, a symbolicattribute, or a combination thereof, in a similar manner within thescope of the invention.

An application implementing an embodiment may take the form of dataobjects, code objects, encapsulated instructions, application fragments,drivers, routines, services, systems—including basic I/O system (BIOS),and other types of software implementations available in a dataprocessing environment. For example, Java® Virtual Machine (JVM®), Java®object, an Enterprise Java Bean (EJB®), a servlet, or an applet may bemanifestations of an application with respect to which, within which, orusing which, the invention may be implemented. (Java, JVM, EJB, andother Java related terminologies are registered trademarks of SunMicrosystems, Inc. in the United States and other countries.)

An illustrative embodiment may be implemented in hardware, software, ora combination thereof. The examples in this disclosure are used only forthe clarity of the description and are not limiting on the illustrativeembodiments. Additional or different information, data, operations,actions, tasks, activities, and manipulations will be conceivable fromthis disclosure for similar purpose and the same are contemplated withinthe scope of the illustrative embodiments.

The illustrative embodiments are described using specific code, datastructures, file systems, designs, architectures, layouts, schematics,and tools only as examples and are not limiting on the illustrativeembodiments. Furthermore, the illustrative embodiments are described insome instances using particular data processing environments only as anexample for the clarity of the description. The illustrative embodimentsmay be used in conjunction with other comparable or similarly purposedstructures, systems, applications, or architectures.

Any advantages listed herein are only examples and are not intended tobe limiting on the illustrative embodiments. Additional or differentadvantages may be realized by specific illustrative embodiments.Furthermore, a particular illustrative embodiment may have some, all, ornone of the advantages listed above.

With reference to the figures and in particular with reference to FIGS.1 and 2, these figures are example diagrams of data processingenvironments in which illustrative embodiments may be implemented. FIGS.1 and 2 are only examples and are not intended to assert or imply anylimitation with regard to the environments in which differentembodiments may be implemented. A particular implementation may makemany modifications to the depicted environments based on the followingdescription.

FIG. 1 depicts a pictorial representation of a network of dataprocessing systems in which illustrative embodiments may be implemented.Data processing environment 100 is a network of computers in which theillustrative embodiments may be implemented. Data processing environment100 includes network 102. Network 102 is the medium used to providecommunications links between various devices and computers connectedtogether within data processing environment 100. Network 102 may includeconnections, such as wire, wireless communication links, or fiber opticcables. Server 104 and server 106 couple to network 102 along withstorage unit 108. Software applications may execute on any computer indata processing environment 100.

In addition, clients 110, 112, and 114 couple to network 102. A dataprocessing system, such as server 104 or 106, or client 110, 112, or 114may contain data and may have software applications or software toolsexecuting thereon. Client 112 may include web browser application 113. Aweb browser application is any application usable for accessing dataover a data network.

Servers 104 and 106, storage unit 108, and clients 110, 112, and 114 maycouple to network 102 using wired connections, wireless communicationprotocols, or other suitable data connectivity. Clients 110, 112, and114 may be, for example, personal computers or network computers.

In the depicted example, server 104 may provide data, such as bootfiles, operating system images, and applications to clients 110, 112,and 114. Clients 110, 112, and 114 may be clients to server 104 in thisexample. Clients 110, 112, 114, or some combination thereof, may includetheir own data, boot files, operating system images, and applications.Data processing environment 100 may include additional servers, clients,and other devices that are not shown.

In the depicted example, data processing environment 100 may be theInternet. Network 102 may represent a collection of networks andgateways that use the Transmission Control Protocol/Internet Protocol(TCP/IP) and other protocols to communicate with one another. At theheart of the Internet is a backbone of data communication links betweenmajor nodes or host computers, including thousands of commercial,governmental, educational, and other computer systems that route dataand messages. Of course, data processing environment 100 also may beimplemented as a number of different types of networks, such as forexample, an intranet, a local area network (LAN), or a wide area network(WAN). FIG. 1 is intended as an example, and not as an architecturallimitation for the different illustrative embodiments.

Among other uses, data processing environment 100 may be used forimplementing a client server environment in which the illustrativeembodiments may be implemented. A client server environment enablessoftware applications and data to be distributed across a network suchthat an application functions by using the interactivity between aclient data processing system and a server data processing system. Dataprocessing environment 100 may also employ a service orientedarchitecture where interoperable software components distributed acrossa network may be packaged together as coherent business applications.

With reference to FIG. 2, this figure depicts a block diagram of a dataprocessing system in which illustrative embodiments may be implemented.Data processing system 200 is an example of a computer, such as server104 or client 110 in FIG. 1, in which computer usable program code orinstructions implementing the processes may be located for theillustrative embodiments.

In the depicted example, data processing system 200 employs a hubarchitecture including North Bridge and memory controller hub (NB/MCH)202 and south bridge and input/output (I/O) controller hub (SB/ICH) 204.Processing unit 206, main memory 208, and graphics processor 210 arecoupled to north bridge and memory controller hub (NB/MCH) 202.Processing unit 206 may contain one or more processors and may beimplemented using one or more heterogeneous processor systems. Graphicsprocessor 210 may be coupled to the NB/MCH through an acceleratedgraphics port (AGP) in certain implementations. In some configurations,processing unit 206 may include NB/MCH 202 or parts thereof.

In the depicted example, local area network (LAN) adapter 212 is coupledto south bridge and I/O controller hub (SB/ICH) 204. Audio adapter 216,keyboard and mouse adapter 220, modem 222, read only memory (ROM) 224,universal serial bus (USB) and other ports 232, and PCl/PCIe devices 234are coupled to south bridge and I/O controller hub 204 through bus 238.Hard disk drive (HDD) 226 and CD-ROM 230 are coupled to south bridge andI/O controller hub 204 through bus 240. PCl/PCIe devices may include,for example, Ethernet adapters, add-in cards, and PC cards for notebookcomputers. PCI uses a card bus controller, while PCIe does not. ROM 224may be, for example, a flash binary input/output system (BIOS). In someconfigurations, ROM 224 may be an Electrically Erasable ProgrammableRead-Only Memory (EEPROM) or any other similarly usable device. Harddisk drive 226 and CD-ROM 230 may use, for example, an integrated driveelectronics (IDE) or serial advanced technology attachment (SATA)interface. A super I/O (SIO) device 236 may be coupled to south bridgeand I/O controller hub (SB/ICH) 204.

An operating system runs on processing unit 206. The operating systemcoordinates and provides control of various components within dataprocessing system 200 in FIG. 2. The operating system may be acommercially available operating system such as AIX® (AIX is a trademarkof International Business Machines Corporation in the United States andother countries), Microsoft® Windows® (Microsoft and Windows aretrademarks of Microsoft Corporation in the United States and othercountries), or Linux® (Linux is a trademark of Linus Torvalds in theUnited States and other countries). An object oriented programmingsystem, such as the Java™ programming system, may run in conjunctionwith the operating system and provides calls to the operating systemfrom Java™ programs or applications executing on data processing system200 (Java is a trademark of Sun Microsystems, Inc. or OracleCorporation, in the United States and other countries).

Instructions for the operating system, the object-oriented programmingsystem, and applications or programs are located on storage devices,such as hard disk drive 226, and may be loaded into main memory 208 forexecution by processing unit 206. The processes of the illustrativeembodiments may be performed by processing unit 206 using computerimplemented instructions, which may be located in a memory, such as, forexample, main memory 208, read only memory 224, or in one or moreperipheral devices.

The hardware in FIGS. 1-2 may vary depending on the implementation.Other internal hardware or peripheral devices, such as flash memory,equivalent non-volatile memory, or optical disk drives and the like, maybe used in addition to or in place of the hardware depicted in FIGS.1-2. In addition, the processes of the illustrative embodiments may beapplied to a multiprocessor data processing system.

In some illustrative examples, data processing system 200 may be apersonal digital assistant (PDA), which is generally configured withflash memory to provide non-volatile memory for storing operating systemfiles and/or user-generated data. A bus system may comprise one or morebuses, such as a system bus, an I/O bus, and a PCI bus. Of course, thebus system may be implemented using any type of communications fabric orarchitecture that provides for a transfer of data between differentcomponents or devices attached to the fabric or architecture.

A communications unit may include one or more devices used to transmitand receive data, such as a modem or a network adapter. A memory may be,for example, main memory 208 or a cache, such as the cache found innorth bridge and memory controller hub 202. A processing unit mayinclude one or more processors or CPUs.

The depicted examples in FIGS. 1-2 and above-described examples are notmeant to imply architectural limitations. For example, data processingsystem 200 also may be a tablet computer, laptop computer, or telephonedevice in addition to taking the form of a PDA. With reference to FIG.3, this figure depicts a block diagram of an example deviceconfiguration usable for service management using user experiencemetrics and with respect to which an illustrative embodiment may beimplemented. Optimization of service management application 300 may beany application able to receive information related to the use of anonline service, such as web browser application 113 in client 112 inFIG. 1. Other systems or applications may also include manifestations ofa device to navigate the Web within the scope of the invention.Generally, any application representing an online service may berepresented by application service within the scope of the invention,according to an embodiment described herein.

Optimization of service management application 300 accesses andnavigates the Web and may include, application service page 304, displayscreen 302, keyboard 306, computer mouse 308, microphone 310, web camera312, and data processing system 318. Screen 302 may be a display unitassociated with client 112 in FIG. 1 that displays application servicepage 304. Application service page 304 may be a web page where a productor service can be purchased.

Data processing system 318 contains metric determination module 320.Metric determination module 320 determines a metric related to networkperformance and/or a metric related to application performance. Networkperformance may include, for example, a speed of the path, packet loss,router congestion/conditions, latency or delay, path reliability, pathbandwidth, and throughput, or a combination thereof, for the networkused for the online service. These example network performance metricsare not intended to be limiting on the invention. Many other additionalor different network performance metrics will be apparent to those ofordinary skill in the art and the same are contemplated within the scopeof the invention.

Application performance relates to the performance or use of theapplication that the user is currently using. For example, applicationperformance metrics may include any combination of the applicationresponse time, number of mouse-clicks used when navigating theapplication, if a user clicks a wrong indicator, or if the user may beconfused about using the application and did not press a “submit” or“purchase” indicator when prompted. These example applicationperformance metrics are not intended to be limiting on the invention.Many other additional or different application performance metrics willbe apparent to those of ordinary skill in the art and the same arecontemplated within the scope of the invention.

In an embodiment, optimization of service management application 300uses metric determination module 320 to help identify why a user mayhave experienced a change in mood metrics or emotional state metrics.For example, the speed of a specific path may be slow and the networkmetric may be low or the user may be confused about navigating theapplication and the application performance metric may be low, causingthe user to become disappointed or disinterested in an online activity,and resulting in a change of mood metrics In another embodiment, metricdetermination module 320 can also identify and either implementpotential solutions to network or application operation problems, orprovide an indicator of such actions to a control system. For example,if the speed of a specific path is too slow and is deemed a probablecause of a change in user mood metrics, metric determination module 320may switch to a different, faster path. As another example, if the useris confused about navigating the current application, a help window ortips on navigating the application may be presented to the user. Metricdetermination module 320 may be configured to detect and act upon theseand several other emotions or moods without limitation.

In an embodiment, keyboard 306 may be a computer keyboard having a keysensing device that provides pressure sensing levels applied on the keyssuch that the use's emotional state may be determined. For example, ifthe user is hitting the keys very hard, metric determination module 320may determine that the user may be frustrated or upset. In anotherembodiment, computer mouse 308 may be a computer mouse or trackballhaving a sensing device that provides pressure sensing levels applied tocomputer mouse 308 such that the user's emotional state may bedetermined. For example, if the user is hitting computer mouse 308 on adesk, gripping computer mouse 308 very hard, or making hard deliberateclicks with computer mouse 308, metric determination module 320 maydetermine that the user may be frustrated or upset.

In another embodiment, microphone 310 is in communication with an audioemotional state detecting system of metric determination module 320 thatmay analyze the user's voice to determine the emotional state of theuser. For example, if the user's speech is at a higher than normal pitchor volume, or the user is using certain phrases or words, the audioemotional state detecting system of metric determination module 320 mayconclude that the user is frustrated or upset. The audio emotional statedetecting system may be located in data processing system 318 or at alocation remote from data processing system 318 such that metricdetermination module 320 may have access to the audio emotional statedetecting system over a data network. In another embodiment, web camera312 is in communication with a visual emotional state detecting systemof metric determination module 320 that may analyze the user's facialfeatures and/or body language to determine the emotional state of theuser. For example, if the user is pursing their lips, frowning, orfurrowing their brows, the visual emotional state detecting system ofmetric determination module 320 may conclude that the user is frustratedor upset. The visual emotional state detecting system may be located indata processing system 318 or at a location remote from data processingsystem 318 such that metric determination module 320 may have access tothe audio emotional state detecting system over a data network. By usingkeyboard 306, computer mouse 308, microphone 310, and web camera 312,either singularly or in any combination, an emotional state of the usermay be determined. Other devices not shown may also be used to determinethe emotional state of the user, for example a biometric sensor on theuser device.

The characteristics of the user that are detected, and the peripheralsor systems that are used for analyzing those characteristics aredescribed only as examples and are not limiting on the invention. Othercharacteristics of the user can be detected using these and otherperipherals and systems operating in conjunction with metricdetermination module 320 in a similar manner within the scope of theinvention.

Application service page 304 may be an application interface, web page,or resource for navigating a service event. As an example, applicationservice page 304 can be accessed through a web browser and displayed ona monitor, such as screen 302. Application service page 304 mayoptionally include user experience indicator 314, action indicator 316,or both. User experience indicator 314 and action indicator 316 may bepresented in any manner suitable for a particular implementation withoutlimitation on the invention. While the application service is describedin terms of a visual page, the application service may instead be anaudio or nonvisual data service such as a voice service.

User experience indicator 314 may display the current emotional state ormood of the user as understood by optimization of service managementapplication 300. In an embodiment, the user can modify user experienceindicator 314 and change the current emotional state or mood of the useras understood by optimization of service management application 300. Inanother embodiment, the user can customize user experience indicator314. For example, to display a happy mood, user experience indicator 314may display a rainbow or sunshine graphic or image and to display anunhappy or frustrated mood, user experience indicator 314 may display araincloud graphic or image.

Action indicator 316 may present information about actions orsuggestions that may help change the user's mood, such as when the useris frustrated or upset. For example, action indicator 316 may inform theuser that a specific network path is too slow and may be causing theuser frustration. In addition, action indicator 316 may display that theoptimization of service management application 300 is attempting toswitch to a different, faster network path. In addition, actionindicator 316 may display suggestions or tips on how to navigateapplication service page 304 or suggest that the user contact customersupport or that a person from customer support will be contacting theuser.

With reference to FIG. 4, this figure depicts example time logs forservice management using user experience metrics in accordance with anillustrative embodiment. Tables 402 and 438 may be generated from anoptimization of service management application, such as optimization ofservice management application 300 in FIG. 3. Tables 402 and 438 aredescribed only as examples and are not limiting on the invention. Othertables may be generated from an optimization of service managementapplication, such as optimization of service management application 300in FIG. 3 within the scope of the invention. In a particular embodiment,the data need not be kept in tabular form. For example, the data may bekept in a relational database, in raw form, or in any other suitableform.

As an example, table 402 contains time log entries during an onlineservice event and in an embodiment includes time field 404 thatillustrates a specific time or time interval. User mood field 406illustrates a specific mood as understood by optimization of servicemanagement application 300 in FIG. 3 at a specific time or during a timeinterval. Delta mood field 408 illustrates a change in the user's mood,if any, at a specific time or during a time interval.

Table 402 also contains action field 410 that illustrates a specificaction or set of actions that occurred at a specific time or during atime interval. In an embodiment, table 402 may also contain additionalor different fields, such as network metric field 412 that illustrates ameasure of the network metric at a specific time or during a timeinterval. As another example, delta network metric field 414 mayillustrate a change in the network metric at a specific time or during atime interval. In another embodiment, table 402 may also containapplication performance metric field 416 that illustrates a measure ofthe application performance metric used for the online service eventduring at a specific time or during a time interval. Similarly, deltaapplication performance metric field 418 may illustrate a change in thenetwork metric at a specific time or during a time interval.

Time field 404 may indicate an actual time or indicate a time delta atwhich the user's emotional state was sampled. In an embodiment, theentry of 0000 may indicate midnight (12:00 p.m.). The values in each rowfor field 404 indicate sampling at different times following the initialsampling. These samplings may be performed at any interval, or based onany non-time trigger, for example, when five (5) actions have been takenby the user, such as five mouse clicks or keyboard strokes. In anembodiment, the interval may be a combination of a time interval and anaction interval where if a predetermined number of actions have not beentaken after a predetermined time interval, then the interval is over.Alternatively, if a predetermined number of actions have been taken,such as ten (10) mouse clicks or keyboard strokes before a predeterminedtime interval is over, then the interval is over.

Mood field 406 may illustrate the perceived mood of the user during theonline service event as understood by optimization of service managementapplication 300 in FIG. 3. Initially, the mood of the user may bedetected by using the mood of a recently completed online service eventor by using keyboard 306, computer mouse 308, microphone 310, and webcamera 312 in FIG. 3 either singularly or in any combination. After theinitial mood of the user is determined, the mood of the user may bedetected by using keyboard 306, computer mouse 308, microphone 310,and/or web camera 312 in FIG. 3 either singularly or in any combination.

In an embodiment, the mood of the user is quantified using a one to ten(1-10) scale with ten (10) being the happiest. As illustrated in moodfield 406 of initial interval 420, the mood of the user was determinedto be happy and is indicated as an eight (8). Other means can be used toquantify the mood of the user, for example, numbers such as a one to onehundred scale (1-100), letters such as an “H” for happy or “F” forfrustrated, alpha-numeric designations such as “H1” for very happy and“H10” for only moderately happy, or a color coding system may be used toillustrate the mood of the user.

The change in the user's mood, if any, may be illustrated in delta moodfield 408. In an embodiment, a mood indicator 432 may illustrate if theuser's happiness or satisfaction has increased, decreased, or remainedthe same. Mood indicator 432 may be presented in any manner suitable fora particular implementation without limitation on the invention. Forexample, if the user's happiness or satisfaction has increased from thelast interval, an up arrow or smiley face graphic or image may be used,if the user is becoming frustrated or angry since the last interval, adown arrow or frowning face graphic or image may be used. In anotherembodiment, if the mood of the user is quantified using a numeric scale,then the difference in mood from one interval to the next interval maybe illustrated. For example, if the mood of the user is quantified usinga one to ten (1-10) scale, as in FIG. 4, then the change in mood frominitial interval 420, mood level 8, to first interval 422, mood level 6,is a decrease of two (2) units.

Action field 410 may present information about a specific action or setof actions that occurred at the time in time field 404 or during theinterval in time field 404. The specific action or set of actions may bepresented in any manner suitable for a particular implementation withoutlimitation on the invention. For example, at time 0000 the onlineservice event was started. During first event 422, time field 404registers 0001 to show that a first time interval had occurred. Actionfield 410 for first event 422 illustrates that during the first timeinterval, several links were clicked during the period between 0000 and0001. In an embodiment, codes or code words may be used to illustrate aspecific action or set of actions.

Network metric field 412 may illustrate an indicator of a network metricused for the online service event at the time in time field 404 orduring the interval in time field 404. While the invention is describedin terms of a single metric, a particular embodiment may use multiplesuch metrics. Network metric field 412 may illustrate, for example, anindication of the speed of the path, packet loss, routercongestion/conditions, latency or delay, path reliability, pathbandwidth, noise, and throughput. These example application operationsare not intended to be limiting on the invention. Many other additionalor different application operations will be apparent to those ofordinary skill in the art and the same are contemplated within the scopeof the invention.

In an embodiment, the functionality of the network used for the onlineservice event may be quantified using a one to ten (1-10) scale with tenbeing the highest. For example, as illustrated in network metric field412 of first event 422, the network metric for the online service eventwas designated as a six (6). The metric may reference the status of theservice as a whole (e.g. widespread congestion), or to the portion ofthe network service most relevant to the user experience. Otherindicators may be used to designate the functionality of the network,for example, numbers such as a one to one hundred scale (1-100), letterssuch as an “F” for functioning or “E” for error in the network,alpha-numeric designations such as “F1” for functioning at optimum and“F10” for barely functioning at optimum, or a color coding system may beused to illustrate a measure of the network metric.

The change in the network metric, if any, may be illustrated in deltanetwork metric field 414. In an embodiment, network metric indicator 434illustrates if the network metric has increased, decreased, or remainedthe same. Network metric indicator 434 may be presented in any mannersuitable for a particular implementation without limitation on theinvention.

For example, if the network metric has increased from the last interval,an up arrow or smiley face graphic or image may be used, if the networkmetric has decreased since the last interval, a down arrow or frowningface graphic or image may be used. In another embodiment, if the networkmetric is quantified using a numeric scale, then the difference in thenetwork metric from one interval to the next interval may beillustrated. For example, if the network metric is quantified using aone to ten (1-10) scale, as in FIG. 4, then the change in the networkmetric from initial interval 420, network metric level six (6), to firstinterval 422, network metric level six (6), is zero (0)

Application performance metric field 416 may illustrate an indicator ofthe application performance metric used for the online service event atthe time in time field 404 or during the interval in time field 404.Application performance metric field 416 may illustrate a measure of theoperation or use of the application that the user is currently using andmay include, for example, the application response time, number ofmouse-clicks used when navigating the application, if a user clicks thewrong indicator, or if the user may be confused about using theapplication and did not press a “submit” or “purchase” indicator whenprompted. These example application operations are not intended to belimiting on the invention. Many other additional or differentapplication operations will be apparent to those of ordinary skill inthe art and the same are contemplated within the scope of the invention.

In an embodiment, the functionality of the application used for theonline service event may be quantified using a one to ten (1-10) scalewith ten being the highest. For example, as illustrated in applicationperformance metric field 416 of first event 422, the applicationperformance metric used for the online service event was designated as asix (6). Other indicators may be used to designate the functionality ofthe application used for the online service event. For example, numberssuch as a one to one hundred scale (1-100), letters such as an “F” forfunctioning or “E” for error in the application, alpha-numericdesignations such as “F1” for functioning at optimum and “F10” forbarely functioning at optimum, or a color coding system may be used toillustrate a measure of the application performance metric.

The change in the application performance metric, if any, may beillustrated in delta application performance metric field 418. In anembodiment, indicator 436 illustrates if the application performancemetric has increased, decreased, or remained the same. Applicationperformance metric indicator 436 may be presented in any manner suitablefor a particular implementation without limitation on the invention.

For example, if the application performance metric has increased fromthe last interval, an up arrow or smiley face graphic or image may beused, if the network metric has decreased since the last interval, adown arrow or frowning face graphic or image may be used. In anotherembodiment, if the application performance metric is quantified using anumeric scale, then the difference in the network metric from oneinterval to the next interval may be illustrated. For example, if theapplication performance metric is quantified using a one to ten (1-10)scale, as in FIG. 4, then the change in the application performancemetric from initial interval 420, application performance metric leveleight (8), to first interval 422, application metric level six (6), is adecrease of two (2) units.

As shown in example table 402, the mood of the user declined as thenetwork metric and the application performance metric declined and table402 illustrates what occurred during the online service event.Specifically, during first interval 420, the user started the onlineservice event, the mood of the user was relatively high, but the networkmetric was not high.

During first interval 420, after a predetermined interval, delta moodfield 406 indicates that user mood field 406 has decreased two (2)units, from an eight (8) to a six (6). Delta network matrix field 414indicates that network metric field 412 did not change and deltaapplication matrix field 418 indicates that application field 416 hasdecreased 2 (2) units, from an eight (8) to a six (6). Action field 408indicates that during first interval 420 the user clicked several links.The network metric did not change, but the delta application matrixfield 418 indicates that application field 416 has decreased two (2)units.

The mood of the user may have gone down because the user may be havingdifficulty navigating the application being used for the service eventand is clicking through several links. In an embodiment, correctiveaction may be taken to attempt to increase the application performancemetric. For example, a help indicator or tips on navigating theapplication may be displayed to the user in action indicator 316 in FIG.3.

During second interval 424, after a predetermined interval, delta moodfield 406 indicates that user mood field 406 has increased one (1) unit,from a six (6) to a seven (7). Action field 410 indicates that duringsecond interval 424 the user has not taken any action. The mood of theuser may have gone up because the user found what they were looking forwhen they started the online service event.

During third interval 426, after a predetermined interval, delta moodfield 406 indicates that user mood field 406 remained a seven (7), thesame mood from the previous interval. Action field 410 indicates thatduring third time interval 426 the user has clicked an indicator. Theindicator may be a purchase indicator or a link to a web page. The moodof the user may have stayed the same because the user found what theywere looking for when they started the online service event and if theindicator is a purchase indicator, then user may have decided topurchase what they found.

During fourth interval 428, after a predetermined interval, delta moodfield 406 indicates that user mood field 406 has decreased one (1) unit,from a seven (7) to a six (6). Action field 410 indicates that duringthe fourth time interval, the user has clicked the indicator repeatedly.Delta network matrix field 414 indicates that network metric field 412decreased three (3) units, from a six (6) to a three (3). Deltaapplication matrix field 418 indicates that application field 416 hasdecreased one (1) unit, from a seven (7) to a six (6). The decline inthe network metric may be the reason the indicator is not responding.

In an embodiment, corrective action may be taken to attempt to increasethe network metric. For example, if a path in the network is slow, adifferent, faster path may be attempted by metric determination module320 in FIG. 3. In another example, the mood of the user has decreased,the user has clicked on a purchase or buy indicator repeatedly, and thenetwork metric has reached zero (0) meaning the network connection tothe online service is not functioning or has been terminated. Actionindicator 316 in FIG. 3 may suggest the user call a displayed phonenumber or suggest an alternative way of communication, for exampleemail, to finalize the purchase.

During fifth interval 430, after a predetermined interval, delta moodfield 408 indicates that the mood field 406 decreased one (1) unit froma six (6) to a five (5). Action field 410 indicates that during fifthinterval 430, the user has ended the online service. Delta networkmetric field 414 indicates that network metric field 412 has increase byone (1) unit. Delta application performance metric field 418 indicatesthat application performance metric field 416 has stayed the same. Thelow network metric indicating an improperly functioning network may bethe reason the user ended the online service event.

As shown in example table 438, the mood of the user increased eventhough the mood of the user was initially relatively low and the networkmetric declined overall. For example, the initial mood of the user shownin initial interval 440, was determined to be unhappy and was indicatedas a two (2). Table 438 illustrates a particular benefit of anoptimization of service management application, such as optimization ofservice management application 300 in FIG. 3. Even though the final moodof the user corresponding to table 438 was the same as the usercorresponding to table 402, the user corresponding to table 438 had abetter overall experience. Specifically, during initial interval 440,the user started the online service event. The mood of the user wasrelatively low, a two (2) and because network metric field 412illustrates a four (4) for initial interval 440, the network was notfunctioning at or near an optimum level.

During first interval 442, after a predetermined interval, delta moodfield 408 indicates that mood field 406 has increased by one (1) unit,from a two (2) to a three (3). Action field 408 indicates that duringfirst interval 442, the user has clicked several links. Delta networkmetric field 414 indicates that network metric field 412 increased three(3) units, from a four (4) to a seven (7). Delta application matrixfield 418 indicates that application field 416 has decreased two (2)units, from an eight (8) to a six (6).

In an embodiment, the metric determination module 320, in FIG. 3, mayhave determined that a path bandwidth was particularly low in thenetwork and rerouted the network through a faster path, therebyincreasing the network metric and possibly increasing the mood of theuser. In an embodiment, nothing is done about the decrease in theapplication performance metric because the mood of the user increased.In another embodiment, if the network metric or the applicationperformance metric dropped below a threshold level, for example, three(3), then action may be taken regardless of the user's mood. Anadditional determination of mood may be done after action is taken toevaluate the effect of the action on the user experience.

During second interval 444, after a predetermined interval, delta moodfield 408 indicates that mood field 406 increased by one (1) unit, froma three (3) to a four (4). Action field 408 indicates that during secondtime interval 444 the user has not taken any action and stayed on aspecific web page. Delta network metric field 414 indicates that networkmetric field 412 decreased by one (1) unit, from a seven (7) to a six(6). Delta application matrix field 418 indicates that application field416 has increased by one (1) unit, from a six (6) to a seven (7). Themood of the user may have gone up because the user may be happy aboutthe many links related to the online service event.

During third interval 446, after a predetermined interval, delta moodfield 408 indicates that mood field 406 has increased by one (1) unit,from a four (4) to a five (5). Action field 408 indicates that duringthe third interval 446, the user has clicked an indicator. Delta networkmetric field 414 indicates that the network metric field 412 decreasedone (1) unit, from six (6) to five (5). Delta application matrix field418 indicates that application field 416 stayed the same at seven (7).The mood of the user may have gone up because the user found what theywere looking for when they started the online service event and if theindicator is a purchase indicator, the user may have decided to purchasewhat they found.

During fourth interval 448, after a predetermined interval, delta moodfield 408 indicates that mood field 406 stayed the same, at five (5).Action field 408 indicates that during fourth interval 448, the user hasended the online service. Delta network metric field 414 indicates thatnetwork metric field 412 decreased one (1) unit, from a five (5) to afour (4). Delta application matrix field 418 indicates that applicationfield 416 stayed the same at seven (7). Despite network metric field 412declining during most of the online service, the mood of the userincreased.

Comparing table 402 and table 438 illustrates why measuring the delta oroverall change in mood during an online event is important. If only thefinal mood were to be measured, a conclusion could be reached thatneither user had a positive experience. By comparing the delta oroverall change in mood during the online event, it may be concluded thatthe overall mood of the user corresponding to table 438 increased. Eventhough the mood of the user corresponding to table 438 was the same asthe user corresponding to table 402, the user corresponding to table 438had a positive online service event experience while the usercorresponding to table 402 did not have a positive online service eventexperience. Further, by correlating the network metric and theapplication performance metric, remedial action may be taken to try andalleviate any frustrations or issues the user may be having during theonline event.

With reference to FIG. 5, this figure depicts a flowchart of an exampleprocess for optimization of service management using subjective userexperience metrics in accordance with an illustrative embodiment.Process 500 may be implemented as part of an optimization of servicemanagement application, such as optimization of service managementapplication 300 in FIG. 3. Optimization of service management usingsubjective user experience metrics may be achieved by measuring thedelta or change between the emotional state of the user at a firstsample time, and the emotional state of the user at a second sample timeand identifying probable causes of the change of user's emotional state.In an embodiment, action is taken based on the difference in emotionalstate. Process 500 begins by a user accessing a service (step 502). Forexample, in one embodiment, an online service may be accessed usingoptimization of service management application 300 in FIG. 3.

At a first time, process 500 determines a first mood of the user basedon the characteristic of the user as understood by an optimization ofservice management application (step 504). For example, in oneembodiment, process 500 may be implemented to determine the mood of theuser by using the mood of a recently completed service event or by usingkeyboard 306, computer mouse 308, microphone 310, and/or web camera 312in FIG. 3, either singularly or in any combination to interpret thecharacteristic of the user and determine a mood of the user asunderstood by an optimization of service management application 300 inFIG. 3. For example, keyboard 306 having a key sensing device may detectthe force the user is using to operate the keys on keyboard 306.Computer mouse 308 may have a sensing device that provides pressuresensing levels applied to computer mouse 308 such that the force theuser is gripping computer mouse 308 may be determined. These examples toobtain the characteristic of the user are not intended to be limiting onthe invention. Many other additional or different application operationswill be apparent to those of ordinary skill in the art and the same arecontemplated within the scope of the invention.

Process 500 determines whether an amount of time and/or events havepassed (step 506). The amount of time may be any duration. For example,the amount of time may be one second, five seconds, ten seconds, oneminute, or any other amount of time that may provide a basis formeasuring a first or initial mood of the user and then a second mood ofthe user such that a change in mood, if any, can be determined. Theevents may be a based on a non-time trigger such as when a certainnumber of actions have been performed by the user. For example, theevents may be when five (5) actions have been taken by the user, such asfive (5) mouse clicks or keyboard strokes. In an embodiment, the eventsmay be a combination of an amount of time and an action interval whereif a predetermined number of actions have not been taken after an amounttime, then the interval is over. Alternatively, if a predeterminednumber of actions have been taken, such as ten (10) mouse clicks orkeyboard strokes before an amount of time interval is over, then theinterval is over.

If process 500 determines that the amount of time and/or events have notpassed, (“No” path of step 506), then process 500 returns to determinewhether the amount of time and/or events have passed (step 506). Ifprocess 500 determines that the amount of time and/or events havepassed, (“Yes” path of step 506), process 500 determines a second moodof the user based on a characteristic of the user (step 506) asunderstood by an optimization of service management application. In oneembodiment, process 500 may be implemented to determine the mood of theuser by using keyboard 306, computer mouse 308, microphone 310, and/orweb camera 312 in FIG. 3, either singularly or in any combination tointerpret the characteristic of the user and determine a mood of theuser as understood by an optimization of service management application300 in FIG. 3.

Process 500 compares the first mood to the second mood to determine achange in the user's mood (step 510) and process 500 determines whetherthe change in mood is above a threshold (step 512). For example, if thefirst mood was a five (5) and the second mood was a three (3) then themood of the user decreased by two (2) units. If the threshold is adecrease of two (2) units in mood, then the change in mood satisfies thethreshold. In another embodiment, the threshold is not a decrease inmood but an overall mood rating such that if the mood of the user is athree (3), then the mood of the user may be satisfy a threshold moodrating of three (3).

If process 500 determines the threshold has been satisfied, (“Yes” pathof step 512), then process creates a list of probable causes for thechange in mood (step 514). For example, in one embodiment, process 500may be implemented to determine probable cause for the change in mood bydetermining a network metric or change in network metric and/or anapplication performance metric or change in application performancemetric using metric determination module 320 in FIG. 3. The networkmetric or change in network metric and/or an application performancemetric or change in application performance metric are correlated to thechange in mood to create a list of probable causes for the change inmood.

Process 500 takes action based on the list of probable causes for thechange in mood (step 516). For example, in one embodiment, process 500may be implemented to take action by displaying user experience metrics314 and/or action indicator 316 in FIG. 3. In another embodiment, theaction is taken by metric determination module 320 in FIG. 3. In anembodiment, after action 518 is taken, an additional sampling of theuser emotional characteristics is made and compared with previoussamples of the user emotional characteristics to determine the efficacyof the action taken. The process 500 then ends thereafter. If process500 determines the threshold has not been satisfied, (“No” path of step512), then process 500 ends thereafter. In a particular embodiment,process 500 does not end but returns to step 506 and process 500determines whether an amount of time and/or events have passed (step506) as described above.

With reference to FIG. 6, this figure depicts a flowchart of an exampleprocess for optimization of service management using subjective userexperience metrics in accordance with an illustrative embodiment.Process 600 may be implemented as part of an optimization of servicemanagement application, such as optimization of service managementapplication 300 in FIG. 3.

Process 600 begins by a user accessing an online service (step 602). Forexample, in one embodiment, an online service may be accessed usingoptimization of service management application 300 in FIG. 3.

At a first time, process 600 determines a first network metric based ona characteristic of a network being used for the online service (step604). For example, in one embodiment, process 600 may be implemented todetermine a first network metric based on a characteristic of a networkby using metric determination module 320 in FIG. 3.

Process 600 determines whether an amount of time and/or events havepassed (step 606). The amount of time may be any duration. For example,the amount of time may be one second, five seconds, ten seconds, oneminute, or any other amount of time that may provide a basis formeasuring a first or initial mood of the user and then a second mood ofthe user such that a change in mood or emotional state, if any, can bedetermined. The events may be a based on a non-time trigger such as whena certain number of actions have been performed by the user. Forexample, the events may be when five (5) actions have been taken by theuser, such as five (5) mouse clicks or keyboard strokes. In anembodiment, the events may be a combination of an amount of time and anaction interval where if a predetermined number of actions have not beentaken after an amount time, then the interval is over. Alternatively, ifa predetermined number of actions have been taken, such as ten (10)mouse clicks or keyboard strokes before an amount of time interval isover, then the interval is over.

If process 600 determines that the amount of time and/or events have notpassed, (“No” path of step 606), then process 600 returns to determinewhether the amount of time and/or events have passed (step 606). Ifprocess 600 determines that the amount of time and/or events havepassed, (“Yes” path of step 606), process 600 determines a secondnetwork metric based on a characteristic of the network (step 608). Inone embodiment, process 600 may be implemented to determine a firstnetwork metric based on a characteristic of a network by using metricdetermination module 320 in FIG. 3.

Process 600 compares the first network metric to the second networkmetric to determine a change in the network metric (step 610) andprocess 600 determines whether the change in network metric is above athreshold (step 612). For example, if the first network metric was afive (5) and the second network metric was a three (3) then the networkmetric decreased by two (2) units. If the threshold is a decrease of two(2) units in network metric, then the change in the network metricsatisfies the threshold. In another embodiment, the threshold is not adecrease in network metric but an overall network metric rating suchthat if the network metric of the network is a three (3), then thenetwork metric would satisfy a threshold network metric rating of three(3).

If process 600 determines the threshold has been satisfied, (“Yes” pathof step 612), then process creates a list of probable causes for thechange in the network metric (step 614). For example, in one embodiment,process 600 may be implemented to determine a list of probable causesfor the change in the network metric by using metric determinationmodule 320 in FIG. 3.

Process 600 takes action based on the list of probable causes for thechange in the network metric (step 616). For example, in one embodiment,process 600 may be implemented to take action by metric determinationmodule 320 in FIG. 3. The process 600 then ends thereafter. If process600 determines the threshold has not been satisfied, (“No” path of step612), then process 600 ends thereafter. In a particular embodiment,process 600 does not end but returns to step 606 and process 600determines whether an amount of time and/or events have passed (step606) as described above.

With reference to FIG. 7, this figure depicts a flowchart of an exampleprocess for optimization of service management using subjective userexperience metrics in accordance with an illustrative embodiment.Process 700 may be implemented as part of an optimization of servicemanagement application, such as optimization of service managementapplication 300 in FIG. 3.

Process 700 begins by a user accessing an online service (step 702). Forexample, in one embodiment, an online service may be accessed usingoptimization of service management application 300 in FIG. 3.

At a first time, process 700 determines a first network applicationperformance metric based on a characteristic of the application beingused for the online service (step 704). For example, in one embodiment,process 700 may be implemented to determine a first applicationperformance metric based on a characteristic of an application by usingmetric determination module 320 in FIG. 3.

Process 700 determines whether an amount of time and/or events havepassed (step 706). The amount of time may be any duration. For example,the amount of time may be one second, five seconds, ten seconds, oneminute, or any other amount of time that may provide a basis formeasuring a first or initial mood of the user and then a second mood ofthe user such that a change in mood, if any, can be determined. Theevents may be a based on a non-time trigger such as when a certainnumber of actions have been performed by the user. For example, theevents may be when five (5) actions have been taken by the user, such asfive (5) mouse clicks or keyboard strokes. In an embodiment, the eventsmay be a combination of an amount of time and an action interval whereif a predetermined number of actions have not been taken after an amounttime, then the interval is over. Alternatively, if a predeterminednumber of actions have been taken, such as ten (10) mouse clicks orkeyboard strokes before an amount of time interval is over, then theinterval is over.

If process 700 determines that the amount of time and/or events have notpassed, (“No” path of step 706), then process 700 returns to determinewhether the amount of time and/or events have passed (step 706). Ifprocess 700 determines that the amount of time and/or events havepassed, (“Yes” path of step 706), process 700 determines a secondapplication performance metric based on the characteristic of theapplication being used for the online service (step 708). In oneembodiment, process 700 may be implemented to determine a secondapplication performance metric based on the characteristic of anapplication by using metric determination module 320 in FIG. 3.

Process 700 compares the first application performance metric to thesecond application performance metric to determine a change in theapplication performance metric (step 710) and process 700 determineswhether the change in the application performance metric is above athreshold (step 712). For example, if the first application performancemetric was a five (5) and the second application performance metric wasa three (3) then the application performance metric decreased by two (2)units. If the threshold is a decrease of two (2) units in theapplication performance metric, then the change in the applicationperformance metric satisfies the threshold. In another embodiment, thethreshold is not a decrease in the application performance metric but anoverall application performance metric such that if the applicationperformance metric is a three (3), then the application performancemetric satisfies a threshold rating of three (3).

If process 700 determines the threshold has been satisfied, (“Yes” pathof step 712), then process creates a list of probable causes for thechange in the application performance metric (step 714). For example, inone embodiment, process 700 may be implemented to determine a list ofprobable causes for the change in the application performance metric byusing metric determination module 320 in FIG. 3.

Process 700 takes action based on the list of probable causes for thechange in the application performance metric (step 716). For example, inone embodiment, process 700 may be implemented to take action by usingmetric determination module 320 in FIG. 3. The process 700 then endsthereafter. If process 700 determines the threshold has not beensatisfied, (“No” path of step 712), then process 700 ends thereafter. Ina particular embodiment, process 700 does not end but returns to step706 and process 700 determines whether an amount of time and/or eventshave passed (step 706) as described above.

With reference to FIG. 8, this figure depicts a flowchart of an exampleprocess for optimization of service management using subjective userexperience metrics in accordance with an illustrative embodiment.Process 800 may be implemented as part of an optimization of servicemanagement application, such as optimization of service managementapplication 300 in FIG. 3.

After the mood or emotional state has been sampled at least a secondtime, process 800 displays an overall change of mood indicator to theuser (step 802). For example, process 800 may display a drop in mood ofthree (3) units from initial interval 420 (eight (8)) to fifth interval430 (five (5)) as shown in table 402 in FIG. 4 or an increase in mood ofthree (3) units from initial interval 440 (two (2)), to fourth interval448 (five (5)) as shown in table 438 in FIG. 4.

Process 800 determines if the user wants to edit the overall change inmood (step 804). The user may want to edit the overall change in mood ifthe mood change was unrelated to the online service. For example, themood may increase if user received a phone call about good news that wasunrelated to the online service experience or the mood may decrease ifthe user had become annoyed by factors other than the online service,such as a neighbors barking dog.

If process 800 determines the user does not want to edit the overallchange in mood, (“No” path of step 806), then process 800 stores theoverall change in mood for future reference (step 810). In anembodiment, process 800 may store other information related to theonline service for example, the information found in tables 402 and 438in FIG. 4. The stored information may be used to increase the overallsatisfaction of the online service. In addition, the stored informationmay be used to create a history for the user.

If process 800 determines the user wants to edit the overall change inmood, (“Yes” path of step 804), then process 800 prompts the user toenter a new overall change of mood (step 806), stores the new userentered overall change in mood (step 808), and process 800 stores theoverall change in mood for future reference (step 810) as describedabove, and then process 800 ends thereafter. Processes 600-800 may eachbe used with process 500 or in any combination.

The illustrative embodiments do more than perform an action based on auser's current mood. The illustrative embodiments relate to measuringthe quality of experience of using a service. The effect that using theservice has on the mood of a user can be determined by measuring thedelta, or change, in mood between a first sampling of the emotionalstate of the user, and a later, second sampling of the emotional stateof the user. These samplings may occur at the start and end of aservice, or may occur during the service. In addition, by capturing theactivities or functions that the user was performing during the serviceand capturing application and network metrics during the service, arelationship between user's emotional state, activities or functionsperformed, and application and network metrics may be established andused to determine a probable cause for the user's change in mood.

The components in the block diagrams and the steps in the flowchartsdescribed above are described only as examples. The components and thesteps have been selected for the clarity of the description and are notlimiting on the illustrative embodiments of the invention. For example,a particular implementation may combine, omit, further subdivide,modify, augment, reduce, or implement alternatively, any of thecomponents or steps without departing from the scope of the illustrativeembodiments. Furthermore, the steps of the processes described above maybe performed in a different order within the scope of the invention.

In an embodiment, an action is taken when the change in mood of the userexceeds a threshold. In another embodiment, the method, system, andcomputer usable program product determines a metric for the onlineservice, correlates the change in mood of the user to the metric, andtakes action to correct a deficiency in the metric for the onlineservice.

By measuring the delta between the emotional state of the user at afirst time during the providing of the service, and the emotional stateof the user at a second time during the providing of a service, and bymeasuring at least one of network and application performance metricseach time the emotional state of the user is measured, a correlationbetween the change in a user's mood and a change in a network orapplication performance metric can be determined. The correlationbetween the change in the user's mood and a change in the network orapplication performance metric allows the ability to determine aprobable cause that led to the change in the user's mood. In anembodiment, the activities or functions that the user was performing arecaptured and correlated with the network and application performancemetrics to determine a probable cause that lead to the change in theuser's emotional state or mood. For example, if the delta, or change inthe user's mood decreases as the user is trying to navigate an onlineevent, a correlation between the user's mood while trying to navigatethe online event and the network metrics indicating a low data rate maybe the cause of the user's frustration and decrease in mood.

The invention can take the form of an entirely software embodiment, oran embodiment containing both hardware and software elements. In apreferred embodiment, the invention is implemented in software orprogram code, which includes but is not limited to firmware, residentsoftware, and microcode.

As will be appreciated by one skilled in the art, aspects of the presentinvention may be embodied as a system, method or computer programproduct. Accordingly, aspects of the present invention may take the formof an entirely hardware embodiment, an entirely software embodiment(including firmware, resident software, micro-code, etc.) or anembodiment combining software and hardware aspects that may allgenerally be referred to herein as a “circuit,” “module” or “system.”Furthermore, aspects of the present invention may take the form of acomputer program product embodied in one or more computer readablemedium(s) having computer readable program code embodied thereon.

Any combination of one or more computer readable medium(s) may beutilized. The computer readable medium may be a computer readable signalmedium or a computer readable storage medium. A computer readablestorage medium may be, for example, but not limited to, an electronic,magnetic, optical, electromagnetic, infrared, or semiconductor system,apparatus, or device, or any suitable combination of the foregoing. Morespecific examples (a non-exhaustive list) of the computer readablestorage medium would include the following: an electrical connectionhaving one or more wires, a portable computer diskette, a hard disk, arandom access memory (RAM), a read-only memory (ROM), an erasableprogrammable read-only memory (EPROM or Flash memory), an optical fiber,a portable compact disc read-only memory (CD-ROM), an optical storagedevice, a magnetic storage device, or any suitable combination of theforegoing. In the context of this document, a computer readable storagemedium may be any tangible medium that can contain, or store a programfor use by or in connection with an instruction execution system,apparatus, or device.

A computer readable signal medium may include a propagated data signalwith computer readable program code embodied therein, for example, inbaseband or as part of a carrier wave. Such a propagated signal may takeany of a variety of forms, including, but not limited to,electromagnetic, optical, or any suitable combination thereof. Acomputer readable signal medium may be any computer readable medium thatis not a computer readable storage medium and that can communicate,propagate, or transport a program for use by or in connection with aninstruction execution system, apparatus, or device.

Program code embodied on a computer readable medium may be transmittedusing any appropriate medium, including but not limited to wireless,wireline, optical fiber cable, RF, etc., or any suitable combination ofthe foregoing.

Further, a computer storage medium may contain or store acomputer-readable program code such that when the computer-readableprogram code is executed on a computer, the execution of thiscomputer-readable program code causes the computer to transmit anothercomputer-readable program code over a communications link. Thiscommunications link may use a medium that is, for example withoutlimitation, physical or wireless.

A data processing system suitable for storing and/or executing programcode will include at least one processor coupled directly or indirectlyto memory elements through a system bus. The memory elements can includelocal memory employed during actual execution of the program code, bulkstorage media, and cache memories, which provide temporary storage of atleast some program code in order to reduce the number of times code mustbe retrieved from bulk storage media during execution.

A data processing system may act as a server data processing system or aclient data processing system. Server and client data processing systemsmay include data storage media that are computer usable, such as beingcomputer readable. A data storage medium associated with a server dataprocessing system may contain computer usable code. A client dataprocessing system may download that computer usable code, such as forstoring on a data storage medium associated with the client dataprocessing system, or for using in the client data processing system.The server data processing system may similarly upload computer usablecode from the client data processing system. The computer usable coderesulting from a computer usable program product embodiment of theillustrative embodiments may be uploaded or downloaded using server andclient data processing systems in this manner.

Input/output or I/O devices (including but not limited to keyboards,displays, pointing devices, etc.) can be coupled to the system eitherdirectly or through intervening I/O controllers.

Network adapters may also be coupled to the system to enable the dataprocessing system to become coupled to other data processing systems orremote printers or storage devices through intervening private or publicnetworks. Modems, cable modem and Ethernet cards are just a few of thecurrently available types of network adapters.

The description of the present invention has been presented for purposesof illustration and description, and is not intended to be exhaustive orlimited to the invention in the form disclosed. Many modifications andvariations will be apparent to those of ordinary skill in the art. Theembodiment was chosen and described in order to explain the principlesof the invention, the practical application, and to enable others ofordinary skill in the art to understand the invention for variousembodiments with various modifications as are suited to the particularuse contemplated.

1. A computer implemented method for determining a subjective experienceof using an online service, the computer implemented method comprising:determining, in an application executing in a computer, a first mood ofa user, wherein the first mood is based on a characteristic of the userat a first time during a providing of an online service; determining asecond mood of the user, wherein the second mood is based on thecharacteristic of the user at a second time during the providing of theonline service; and comparing the first mood of the user and the secondmood of the user to determine a change in mood of the user.
 2. Thecomputer implemented method of claim 1, further comprising taking anaction when the change in mood of the user exceeds a threshold.
 3. Thecomputer implemented method of claim 2, further comprising determining athird mood of a user, wherein the third mood is based on acharacteristic of the user at a third time after the action is taken andduring the providing of an online service; and comparing the third moodof the user and the second mood of the user to determine a change inmood of the user.
 4. The computer implemented method of claim 2, whereinthe action is taken over a network, further comprising: determining ametric for the online service; and correlating the change in mood of theuser to the metric.
 5. The computer implemented method of claim 4,wherein the metric is a network metric or an application performancemetric.
 6. The computer implemented method of claim 4, wherein theaction changes a metric for the online service.
 7. A data processingsystem for managing security features of a web browser, the dataprocessing system comprising: a storage device including a storagemedium, wherein the storage device stores computer usable program code;and a processor, wherein the processor executes the computer usableprogram code, and wherein the computer usable program code comprises:computer usable code for determining a first mood of a user, wherein thefirst mood is based on a characteristic of the user at a first timeduring a providing of an online service; computer usable code fordetermining a second mood of the user, wherein the second mood is basedon the characteristic of the user at a second time during the providingof the online service; and computer usable code for comparing the firstmood of the user and the second mood of the user to determine a changein mood of the user.
 8. The data processing system of claim 7, furthercomprising computer usable code for taking an action when the change inmood of the user exceeds a threshold.
 9. The data processing system ofclaim 7, further comprising: computer usable code for determining athird mood of a user, wherein the third mood is based on acharacteristic of the user at a third time after the action is taken andduring the providing of an online service; and computer usable code forcomparing the third mood of the user and the second mood of the user todetermine a change in mood of the user.
 10. The data processing systemof claim 9, wherein the action is taken over a network, furthercomprising: computer usable code for determining a metric for the onlineservice; and computer usable code for correlating the change in mood ofthe user to the metric.
 11. The data processing system of claim 9,wherein the metric is a network metric or an application performancemetric.
 12. The data processing system of claim 7, wherein the actionchanges a metric for the online service.
 13. A computer usable programproduct comprising a computer usable storage medium including computerusable code for managing security features of a web browser, thecomputer usable code comprising: computer usable code for determining atan application executing in a data processing system, a set ofparameters associated with a device; computer usable code fordetermining a first mood of a user, wherein the first mood is based on acharacteristic of the user at a first time during a providing of anonline service; computer usable code for determining a second mood ofthe user, wherein the second mood is based on the characteristic of theuser after a predetermined interval from when the user first accessesthe online service; and computer usable code for comparing the firstmood of the user and the second mood of the user to determine a changein mood of the user.
 14. The computer usable program product of claim13, further comprising computer usable code for taking an action whenthe change in mood of the user exceeds a threshold.
 15. The computerusable program product of claim 13, further comprising: computer usablecode for determining a third mood of a user, wherein the third mood isbased on a characteristic of the user at a third time after the actionis taken and during the providing of an online service; and computerusable code for comparing the third mood of the user and the second moodof the user to determine a change in mood of the user.
 16. The computerusable program product of claim 15, wherein the action is taken over anetwork, further comprising: computer usable code for determining ametric for the online service; and computer usable code for correlatingthe change in mood of the user to the metric.
 17. The computer usableprogram product of claim 15, wherein the metric is a network metric oran application performance metric.
 18. The computer usable programproduct of claim 13, wherein the action changes a metric for the onlineservice.
 19. The computer usable program product of claim 13, whereinthe computer usable code is stored in a computer readable storage mediumin a data processing system, and wherein the computer usable code istransferred over a network from a remote data processing system.
 20. Thecomputer usable program product of claim 13, wherein the computer usablecode is stored in a computer readable storage medium in a server dataprocessing system, and wherein the computer usable code is downloadedover a network to a remote data processing system for use in a computerreadable storage medium associated with the remote data processingsystem.